Mercurial > foo_out_sdl
view foosdk/sdk/pfc/order_helper.h @ 1:20d02a178406 default tip
*: check in everything else
yay
| author | Paper <paper@tflc.us> |
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| date | Mon, 05 Jan 2026 02:15:46 -0500 |
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#pragma once namespace pfc { PFC_DECLARE_EXCEPTION( exception_invalid_permutation, exception_invalid_params, "Invalid permutation" ); t_size permutation_find_reverse(t_size const * order, t_size count, t_size value); //! For critical sanity checks. Speed: O(n), allocates memory. bool permutation_is_valid(t_size const * order, t_size count); //! For critical sanity checks. Speed: O(n), allocates memory. void permutation_validate(t_size const * order, t_size count); //! Creates a permutation that moves selected items in a list box by the specified delta-offset. void create_move_items_permutation(t_size * p_output,t_size p_count,const class bit_array & p_selection,int p_delta); void create_move_item_permutation( size_t * p_output, size_t p_count, size_t from, size_t to ); bool create_drop_permutation(size_t * out, size_t itemCount, pfc::bit_array const & maskSelected, size_t insertMark ); bool is_identity(size_t const* order, size_t count); } class order_helper { pfc::array_t<t_size> m_data; public: order_helper(t_size p_size) { m_data.set_size(p_size); for(t_size n=0;n<p_size;n++) m_data[n]=n; } order_helper(const order_helper & p_order) {*this = p_order;} static bool g_is_identity(const t_size * order, t_size count) { for(t_size walk = 0; walk < count; ++walk) { if (order[walk] != walk) return false; } return true; } template<typename t_array> static bool g_is_identity(const t_array & p_array) { const t_size count = pfc::array_size_t(p_array); for(t_size walk = 0; walk < count; ++walk) if (p_array[walk] != walk) return false; return true; } template<typename t_int> static void g_fill(t_int * p_order,const t_size p_count) { t_size n; for(n=0;n<p_count;n++) p_order[n] = (t_int)n; } template<typename t_array> static void g_fill(t_array & p_array) { t_size n; const t_size max = pfc::array_size_t(p_array); for(n=0;n<max;n++) p_array[n] = n; } t_size get_item(t_size ptr) const {return m_data[ptr];} t_size & operator[](t_size ptr) {return m_data[ptr];} t_size operator[](t_size ptr) const {return m_data[ptr];} static void g_swap(t_size * p_data,t_size ptr1,t_size ptr2); inline void swap(t_size ptr1,t_size ptr2) {pfc::swap_t(m_data[ptr1],m_data[ptr2]);} const t_size * get_ptr() const {return m_data.get_ptr();} t_size* get_ptr() { return m_data.get_ptr(); } //! Insecure - may deadlock or crash on invalid permutation content. In theory faster than walking the permutation, but still O(n). static t_size g_find_reverse(const t_size * order,t_size val); //! Insecure - may deadlock or crash on invalid permutation content. In theory faster than walking the permutation, but still O(n). inline t_size find_reverse(t_size val) {return g_find_reverse(m_data.get_ptr(),val);} static void g_reverse(t_size * order,t_size base,t_size count); inline void reverse(t_size base,t_size count) {g_reverse(m_data.get_ptr(),base,count);} t_size get_count() const {return m_data.get_size();} };